在烟草中表达和功能表征三叶草异黄酮合酶。
Expression and functional characterization of a white clover isoflavone synthase in tobacco.
机构信息
AgResearch Limited, Grasslands Research Centre, Tennent Drive, Palmerston North 4442, New Zealand.
出版信息
Ann Bot. 2012 Nov;110(6):1291-301. doi: 10.1093/aob/mcs168. Epub 2012 Aug 22.
BACKGROUND AND AIMS
Trifolium repens (white clover) is a valuable component of pastures due to its ability to fix nitrogen. Productivity of T. repens is sometimes threatened by insect pests, and it has been suggested that phenylpropanoid-derived isoflavonoids such as formononetin can protect white clover from insect damage. The aim of this study was to isolate and functionally characterize an isoflavone synthase (IFS2_12) from T. repens by expressing it in Nicotiana tabacum (tobacco), a plant which does not naturally produce isoflavonoids.
METHODS
To induce anthocyanin production and increase isoflavonoid precursors in tobacco, the tomato R2R3 MYB transcription factor ANT1 was expressed in tobacco (Nt-ANT1 plants). IFS2_12 was heterologously expressed in tobacco both transiently and stably, and isoflavonoids in leaf extracts were analysed by liquid chromatography (LC) coupled to mass spectrometry (MS(n)). As a positive control, a double construct of soybean IFS and alfalfa chalcone isomerase (IFS/CHI), which had been previously shown to induce isoflavonoid production in tobacco, was also expressed. Stable transformants expressing IFS2_12, soybean/alfalfa IFS/CHI and ANT1 were crossed and the resulting plants were analysed for isoflavonoid production.
KEY RESULTS
Leaves of tobacco plants expressing ANT1 had a range of phenotypes from mainly green to uniformly bronze coloured. Both transient and stable expression of the IFS2_12 or IFS/CHI constructs resulted in the production of the isoflavonoid genistein and its conjugates. The highest levels (up to 19·2 mg g(-1) d. wt) accumulated in a progeny of a cross between a purple ANT1 and a IFS/ CHI transformant, while the second highest concentration was found in a plant derived from a selfed IFS2-12 transformant.
CONCLUSIONS
It is concluded that the gene IFS2_12 isolated from T. repens encodes an isoflavone synthase. This study paves the way for engineering white clover plants with higher levels of isoflavonoids than naturally found in this species for sufficient insect protection.
背景与目的
白车轴草(三叶草)因其固氮能力而成为牧场的宝贵组成部分。白车轴草的生产力有时会受到害虫的威胁,有人认为苯丙烷衍生的异黄酮如芒柄花素可以保护白车轴草免受昆虫损害。本研究的目的是通过在不自然产生异黄酮的烟草(Nicotiana tabacum)中表达,从白车轴草中分离并功能表征异黄酮合酶(IFS2_12)。
方法
为了诱导烟草中花青素的产生并增加异黄酮前体,在烟草中表达了番茄 R2R3 MYB 转录因子 ANT1(Nt-ANT1 植株)。IFS2_12 以瞬时和稳定的方式在烟草中异源表达,并用液相色谱(LC)-质谱联用(MS(n))分析叶提取物中的异黄酮。作为阳性对照,还表达了先前在烟草中诱导异黄酮产生的大豆 IFS 和紫花苜蓿查尔酮异构酶(IFS/CHI)的双构建体。表达 IFS2_12、大豆/紫花苜蓿 IFS/CHI 和 ANT1 的稳定转化体进行杂交,并分析产生的植物的异黄酮产生情况。
主要结果
表达 ANT1 的烟草叶片的表型从主要为绿色到均匀青铜色不等。IFS2_12 或 IFS/CHI 构建体的瞬时和稳定表达均导致异黄酮染料木素及其缀合物的产生。在紫色 ANT1 和 IFS/CHI 转化体杂交后代中积累的水平最高(高达 19.2 mg g(-1) d. wt),而在源自自交 IFS2-12 转化体的植物中发现的第二高浓度。
结论
从白车轴草中分离的基因 IFS2_12 编码异黄酮合酶。本研究为工程白车轴草植物提供了途径,使其具有比该物种中天然存在的更高水平的异黄酮,以提供足够的昆虫保护。
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